Robotics Industry News
ABB Robots Get Smart with Real-time Tactile Feedback for Delicate Assembly and Machining Applications
ABB Inc. Posted 12/05/2013Integrated Force Control handles process variations with the sensitivity of the human hand, improving performance and shortening programming time
- Tactile sensing: Robot reacts to surroundings in real-time, can adjust path and speed based on sensor input
- Search patterns: Can mimic motions of a human arm to find the correct position to assemble a part
- Reduced failures: Edges and contours are followed precisely regardless of work piece orientation
- Easy to program: Tactile sensing reduces programming time and can eliminate advanced fixtures
- Quick installation: Short programming time and less complex tooling results in quicker installation
ABB robots with Integrated Force Control react to their surroundings and deviate from their programmed path or speed based on feedback from the force sensor, a valuable enhancement to conventional robotic solutions typically controlled by predefined paths and speeds. This makes it possible to automate complex tasks which previously required skilled personnel and advanced fixed automation, such as machining and small parts assembly where the dexterous handling of work pieces and tools is of the utmost concern.
“Integrated Force Control unleashes sophisticated software functionality that automates complex tasks not easily do-able through traditional programming methods,” says Nick Hunt, ABB Robotics manager of technology and support, North America. “This new integrated feature takes ease-of-use to a whole new level by dramatically reducing the stress robot programmers are under when faced with processing parts of complex and varying geometries.”
Robotic assembly can be very demanding with small tolerances and small parts that must fit together. With ABB’s Integrated Force Control technology it is possible to assemble parts with tolerances that are within the range of the robot’s incredibly precise repeatability without requiring highly accurate and expensive fixtures. In addition, a force-controlled robot can be programmed to mimic the movements of a human arm, applying search patterns to find the correct position to assemble a given part, significantly reducing the risk of assembly failures which can result in production problems or damaged parts.
ABB’s Integrated Force Control also can be used to improve robotic machining applications such as grinding, polishing, deburring and deflashing. One package feature, for example, allows a robot to grind, polish or buff parts while maintaining a constant force between the tool and the work piece. Another feature enables a robot to deburr or deflash partlines and surfaces of parts at a controlled speed, thereby slowing down when encountering excessive burrs or casting flash.
The force sensor is fully integrated into ABB’s hardware and software, protected against overload and EMC, certified to IP65 and suitable for high precision robotic applications with a compact and lightweight design. When combined with vision sensors, ABB Integrated Force Control also allows for new ways of thinking about a myriad of other robotic automated functions that previously required skilled personnel.
ABB is a leader in power and automation technologies that enable utility and industry customers to improve their performance while lowering environmental impact. The ABB Group of companies operates in around 100 countries and employs about 145,000 people.
About ABB Robotics
ABB Robotics is a leading supplier of industrial robots - also providing robot software, peripheral equipment, modular manufacturing cells and service for tasks such as welding, handling, assembly, painting and finishing, picking, packing, palletizing and machine tending. Key markets include automotive, plastics, metal fabrication, foundry, electronics, machine tools, pharmaceutical and food and beverage industries. A strong solutions focus helps manufacturers improve productivity, product quality and worker safety. ABB has installed more than 200,000 robots worldwide.